/*=========================================================================
 *
 *  Copyright Insight Software Consortium
 *
 *  Licensed under the Apache License, Version 2.0 (the "License");
 *  you may not use this file except in compliance with the License.
 *  You may obtain a copy of the License at
 *
 *         http://www.apache.org/licenses/LICENSE-2.0.txt
 *
 *  Unless required by applicable law or agreed to in writing, software
 *  distributed under the License is distributed on an "AS IS" BASIS,
 *  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 *  See the License for the specific language governing permissions and
 *  limitations under the License.
 *
 *=========================================================================*/
#ifndef __itkHistogram_hxx
#define __itkHistogram_hxx

#include "itkHistogram.h"
#include "itkNumericTraits.h"

namespace itk
{
namespace Statistics
{
template< class TMeasurement, class TFrequencyContainer >
Histogram< TMeasurement, TFrequencyContainer >
::Histogram()
{
  this->m_ClipBinsAtEnds = true;
  this->m_FrequencyContainer = FrequencyContainerType::New();
  this->m_OffsetTable = OffsetTableType(this->GetMeasurementVectorSize() + 1);
  for ( unsigned int i = 0; i < this->GetMeasurementVectorSize() + 1; i++ )
    {
    this->m_OffsetTable[i] = itk::NumericTraits< InstanceIdentifier >::Zero;
    }
}

template< class TMeasurement, class TFrequencyContainer >
typename
Histogram< TMeasurement, TFrequencyContainer >::InstanceIdentifier
Histogram< TMeasurement, TFrequencyContainer >
::Size() const
{
  if ( this->GetMeasurementVectorSize() == 0 )
    {
    return itk::NumericTraits< InstanceIdentifier >::Zero;
    }
  InstanceIdentifier size = 1;
  for ( unsigned int i = 0; i < this->GetMeasurementVectorSize(); i++ )
    {
    size *= m_Size[i];
    }
  return size;
}

template< class TMeasurement, class TFrequencyContainer >
const typename
Histogram< TMeasurement, TFrequencyContainer >::SizeType &
Histogram< TMeasurement, TFrequencyContainer >
::GetSize() const
{
  return m_Size;
}

template< class TMeasurement, class TFrequencyContainer >
typename
Histogram< TMeasurement, TFrequencyContainer >::SizeValueType
Histogram< TMeasurement, TFrequencyContainer >
::GetSize(unsigned int dimension) const
{
  return m_Size[dimension];
}

template< class TMeasurement, class TFrequencyContainer >
const typename
Histogram< TMeasurement, TFrequencyContainer >::MeasurementType &
Histogram< TMeasurement, TFrequencyContainer >
::GetBinMin(unsigned int dimension, InstanceIdentifier nbin) const
{
  return m_Min[dimension][nbin];
}

template< class TMeasurement,
          class TFrequencyContainer >
const typename
Histogram< TMeasurement, TFrequencyContainer >::MeasurementType &
Histogram< TMeasurement, TFrequencyContainer >
::GetBinMax(unsigned int dimension, InstanceIdentifier nbin) const
{
  return m_Max[dimension][nbin];
}

template< class TMeasurement, class TFrequencyContainer >
void
Histogram< TMeasurement, TFrequencyContainer >
::SetBinMin(unsigned int dimension, InstanceIdentifier nbin,
            MeasurementType min)
{
  m_Min[dimension][nbin] = min;
}

template< class TMeasurement, class TFrequencyContainer >
void
Histogram< TMeasurement, TFrequencyContainer >
::SetBinMax(unsigned int dimension, InstanceIdentifier nbin,
            MeasurementType max)
{
  m_Max[dimension][nbin] = max;
}

template< class TMeasurement, class TFrequencyContainer >
const typename
Histogram< TMeasurement, TFrequencyContainer >::BinMinVectorType &
Histogram< TMeasurement, TFrequencyContainer >
::GetDimensionMins(unsigned int dimension) const
{
  return m_Min[dimension];
}

template< class TMeasurement, class TFrequencyContainer >
const typename
Histogram< TMeasurement, TFrequencyContainer >::BinMaxVectorType &
Histogram< TMeasurement, TFrequencyContainer >
::GetDimensionMaxs(unsigned int dimension) const
{
  return m_Max[dimension];
}

template< class TMeasurement, class TFrequencyContainer >
const typename
Histogram< TMeasurement, TFrequencyContainer >::BinMinContainerType &
Histogram< TMeasurement, TFrequencyContainer >
::GetMins() const
{
  return m_Min;
}

template< class TMeasurement, class TFrequencyContainer >
const typename
Histogram< TMeasurement, TFrequencyContainer >::BinMaxContainerType &
Histogram< TMeasurement, TFrequencyContainer >
::GetMaxs() const
{
  return m_Max;
}

template< class TMeasurement, class TFrequencyContainer >
typename
Histogram< TMeasurement, TFrequencyContainer >::AbsoluteFrequencyType
Histogram< TMeasurement, TFrequencyContainer >
::GetFrequency(InstanceIdentifier id) const
{
  return m_FrequencyContainer->GetFrequency(id);
}

template< class TMeasurement, class TFrequencyContainer >
bool
Histogram< TMeasurement, TFrequencyContainer >
::SetFrequency(InstanceIdentifier id, AbsoluteFrequencyType value)
{
  return m_FrequencyContainer->SetFrequency(id, value);
}

template< class TMeasurement, class TFrequencyContainer >
bool
Histogram< TMeasurement, TFrequencyContainer >
::IncreaseFrequency(InstanceIdentifier id, AbsoluteFrequencyType value)
{
  return m_FrequencyContainer->IncreaseFrequency(id, value);
}

template< class TMeasurement, class TFrequencyContainer >
void
Histogram< TMeasurement, TFrequencyContainer >
::Initialize(const SizeType & size)
{
  if ( this->GetMeasurementVectorSize() == 0 )
    {
    itkExceptionMacro("MeasurementVectorSize is Zero. It should be set to a non-zero value before calling Initialize");
    }

  this->m_Size = size;

  // creates offset table which will be used for generation of
  // instance identifiers.
  InstanceIdentifier num = 1;

  this->m_OffsetTable.resize(this->GetMeasurementVectorSize() + 1);

  this->m_OffsetTable[0] = num;
  for ( unsigned int i = 0; i < this->GetMeasurementVectorSize(); i++ )
    {
    num *= m_Size[i];
    this->m_OffsetTable[i + 1] = num;
    }

  this->m_TempIndex.SetSize( this->GetMeasurementVectorSize() );

  m_NumberOfInstances = num;

  // adjust the sizes of min max value containers
  unsigned int dim;
  m_Min.resize( this->GetMeasurementVectorSize() );
  for ( dim = 0; dim < this->GetMeasurementVectorSize(); dim++ )
    {
    m_Min[dim].resize(m_Size[dim]);
    }

  m_Max.resize( this->GetMeasurementVectorSize() );
  for ( dim = 0; dim < this->GetMeasurementVectorSize(); dim++ )
    {
    m_Max[dim].resize(m_Size[dim]);
    }

  // initialize auxiliary variables
  this->m_TempIndex.SetSize( this->GetMeasurementVectorSize() );
  this->m_TempMeasurementVector.SetSize( this->GetMeasurementVectorSize() );

  // initialize the frequency container
  m_FrequencyContainer->Initialize(this->m_OffsetTable[this->GetMeasurementVectorSize()]);
  this->SetToZero();
}

template< class TMeasurement, class TFrequencyContainer >
void
Histogram< TMeasurement, TFrequencyContainer >
::SetToZero()
{
  m_FrequencyContainer->SetToZero();
}

template< class TMeasurement, class TFrequencyContainer >
void
Histogram< TMeasurement, TFrequencyContainer >
::Initialize(const SizeType & size, MeasurementVectorType & lowerBound,
             MeasurementVectorType & upperBound)
{
  this->Initialize(size);

  float interval;
  for ( unsigned int i = 0; i < this->GetMeasurementVectorSize(); i++ )
    {
    if ( size[i] > 0 )
      {
      interval = static_cast<float>( upperBound[i] - lowerBound[i] )
        / static_cast< MeasurementType >( size[i] );

      // Set the min vector and max vector
      for ( unsigned int j = 0; j < static_cast< unsigned int >( size[i] - 1 ); j++ )
        {
        this->SetBinMin( i, j, (MeasurementType)( lowerBound[i]
                                                  + ( (float)j * interval ) ) );
        this->SetBinMax( i, j, (MeasurementType)( lowerBound[i]
                                                  + ( ( (float)j + 1 ) * interval ) ) );
        }
      this->SetBinMin( i, size[i] - 1,
                       (MeasurementType)( lowerBound[i]
                                          + ( ( (float)size[i] - 1 ) * interval ) ) );
      this->SetBinMax( i, size[i] - 1,
                       (MeasurementType)( upperBound[i] ) );
      }
    }
}

template< class TMeasurement, class TFrequencyContainer >
inline const typename Histogram< TMeasurement, TFrequencyContainer >::IndexType &
Histogram< TMeasurement, TFrequencyContainer >
::GetIndex(const MeasurementVectorType & measurement) const
{
  // Have this deprecated method call the un-deprecated one..
  this->GetIndex(measurement, m_TempIndex);
  return m_TempIndex;
}

/** */
template< class TMeasurement, class TFrequencyContainer >
bool Histogram< TMeasurement, TFrequencyContainer >
::GetIndex(const MeasurementVectorType & measurement, IndexType & index) const
{
  // now using something similar to binary search to find
  // index.
  unsigned int dim;

  if ( index.Size() != this->GetMeasurementVectorSize() )
    {
    index.SetSize( this->GetMeasurementVectorSize() );
    }

  int begin;
  int mid;
  int end;

  MeasurementType median;
  MeasurementType tempMeasurement;

  for ( dim = 0; dim < this->GetMeasurementVectorSize(); dim++ )
    {
    tempMeasurement = measurement[dim];
    begin = 0;
    if ( tempMeasurement < m_Min[dim][begin] )
      {
      // one of measurement is below the minimum
      // its ok if we extend the bins to infinity.. not ok if we don't
      if ( !m_ClipBinsAtEnds )
        {
        index[dim] = (IndexValueType)0;
        continue;
        }
      else
        {   // set an illegal value and return 0
        index[dim] = (IndexValueType)m_Size[dim];
        return false;
        }
      }

    end = m_Min[dim].size() - 1;
    if ( tempMeasurement >= m_Max[dim][end] )
      {
      // one of measurement is above the maximum
      // its ok if we extend the bins to infinity.. not ok if we don't
      if ( !m_ClipBinsAtEnds )
        {
        index[dim] = (IndexValueType)m_Size[dim] - 1;
        continue;
        }
      else
        {   // set an illegal value and return 0
        index[dim] = (IndexValueType)m_Size[dim];
        return false;
        }
      }

    // Binary search for the bin where this measurement could be
    mid = ( end + 1 ) / 2;
    median = m_Min[dim][mid];

    while ( true )
      {
      if ( tempMeasurement < median )
        {
        end = mid - 1;
        }
      else if ( tempMeasurement > median )
        {
        // test whether it is inside the current bin by comparing to the max of
        // this bin.
        if ( tempMeasurement <  m_Max[dim][mid]
             && tempMeasurement >= m_Min[dim][mid] )
          {
          index[dim] = mid;
          break;
          }
        // otherwise, continue binary search
        begin = mid + 1;
        }
      else
        {
        index[dim] = mid;
        break;
        }
      mid = begin + ( end - begin ) / 2;
      median = m_Min[dim][mid];
      } // end of while
    }   // end of for()
  return true;
}

template< class TMeasurement, class TFrequencyContainer >
inline const typename Histogram< TMeasurement, TFrequencyContainer >::IndexType &
Histogram< TMeasurement, TFrequencyContainer >
::GetIndex(InstanceIdentifier id) const
{
  InstanceIdentifier id2 = id;

  for ( int i = this->GetMeasurementVectorSize() - 1; i > 0; i-- )
    {
    m_TempIndex[i] = static_cast< IndexValueType >( id2 / this->m_OffsetTable[i] );
    id2 -= ( m_TempIndex[i] * this->m_OffsetTable[i] );
    }
  m_TempIndex[0] = static_cast< IndexValueType >( id2 );

  return m_TempIndex;
}

template< class TMeasurement, class TFrequencyContainer >
inline bool
Histogram< TMeasurement, TFrequencyContainer >
::IsIndexOutOfBounds(const IndexType & index) const
{
  for ( unsigned int dim = 0; dim < this->GetMeasurementVectorSize(); dim++ )
    {
    if ( index[dim] < 0 || index[dim] >= static_cast< IndexValueType >( m_Size[dim] ) )
      {
      return true;
      }
    }
  return false;
}

template< class TMeasurement, class TFrequencyContainer >
inline typename Histogram< TMeasurement, TFrequencyContainer >::InstanceIdentifier
Histogram< TMeasurement, TFrequencyContainer >
::GetInstanceIdentifier(const IndexType & index) const
{
  InstanceIdentifier instanceId = 0;

  for ( int i = this->GetMeasurementVectorSize() - 1; i > 0; i-- )
    {
    instanceId += index[i] * this->m_OffsetTable[i];
    }

  instanceId += index[0];

  return instanceId;
}

template< class TMeasurement, class TFrequencyContainer >
inline const typename Histogram< TMeasurement, TFrequencyContainer >::MeasurementType &
Histogram< TMeasurement, TFrequencyContainer >
::GetBinMinFromValue(const unsigned int dimension, const float value) const
{
  // If the value is lower than any of min value in the Histogram,
  // it returns the lowest min value
  if ( value <= this->m_Min[dimension][0] )
    {
    return this->m_Min[dimension][0];
    }

  // If the value is higher than any of min value in the Histogram,
  // it returns the highest min value
  if ( value >= m_Min[dimension][m_Size[dimension] - 1] )
    {
    return m_Min[dimension][this->m_Size[dimension] - 1];
    }

  unsigned int binMinFromValue = 0;

  for ( unsigned int i = 0; i < this->m_Size[dimension]; i++ )
    {
    if ( ( value >= this->m_Min[dimension][i] )
         && ( value <  this->m_Max[dimension][i] ) )
      {
      binMinFromValue = i;
      }
    }

  return this->m_Min[dimension][binMinFromValue];
}

template< class TMeasurement, class TFrequencyContainer >
inline const typename Histogram< TMeasurement, TFrequencyContainer >::MeasurementType &
Histogram< TMeasurement, TFrequencyContainer >
::GetBinMaxFromValue(const unsigned int dimension, const float value) const
{
  // If the value is lower than any of max value in the Histogram,
  // it returns the lowest max value
  if ( value <= this->m_Max[dimension][0] )
    {
    return this->m_Max[dimension][0];
    }

  // If the value is higher than any of max value in the Histogram,
  // it returns the highest max value
  if ( value >= m_Max[dimension][m_Size[dimension] - 1] )
    {
    return m_Max[dimension][this->m_Size[dimension] - 1];
    }

  unsigned int binMaxFromValue = 0;

  for ( unsigned int i = 0; i < this->m_Size[dimension]; i++ )
    {
    if ( ( value >= this->m_Min[dimension][i] )
         && ( value <  this->m_Max[dimension][i] ) )
      {
      binMaxFromValue = i;
      }
    }

  return this->m_Max[dimension][binMaxFromValue];
}

template< class TMeasurement, class TFrequencyContainer >
const typename
Histogram< TMeasurement, TFrequencyContainer >::MeasurementVectorType &
Histogram< TMeasurement, TFrequencyContainer >
::GetHistogramMinFromIndex(const IndexType & index) const
{
  for ( unsigned int i = 0; i < this->GetMeasurementVectorSize(); i++ )
    {
    m_TempMeasurementVector[i] = this->GetBinMin(i, index[i]);
    }
  return m_TempMeasurementVector;
}

template< class TMeasurement, class TFrequencyContainer >
const typename
Histogram< TMeasurement, TFrequencyContainer >::MeasurementVectorType &
Histogram< TMeasurement, TFrequencyContainer >
::GetHistogramMaxFromIndex(const IndexType & index) const
{
  for ( unsigned int i = 0; i < this->GetMeasurementVectorSize(); i++ )
    {
    m_TempMeasurementVector[i] = this->GetBinMax(i, index[i]);
    }
  return m_TempMeasurementVector;
}

template< class TMeasurement, class TFrequencyContainer >
inline const typename Histogram< TMeasurement, TFrequencyContainer >::MeasurementVectorType &
Histogram< TMeasurement, TFrequencyContainer >
::GetMeasurementVector(const IndexType & index) const
{
  for ( unsigned int i = 0; i < this->GetMeasurementVectorSize(); i++ )
    {
    MeasurementType value = ( m_Min[i][index[i]] + m_Max[i][index[i]] );
    m_TempMeasurementVector[i] =  static_cast< MeasurementType >( value / 2.0 );
    }
  return m_TempMeasurementVector;
}

template< class TMeasurement, class TFrequencyContainer >
inline const typename Histogram< TMeasurement, TFrequencyContainer >::MeasurementVectorType &
Histogram< TMeasurement, TFrequencyContainer >
::GetMeasurementVector(InstanceIdentifier id) const
{
  return this->GetMeasurementVector( this->GetIndex(id) );
}

template< class TMeasurement, class TFrequencyContainer >
inline void
Histogram< TMeasurement, TFrequencyContainer >
::SetFrequency(const AbsoluteFrequencyType value)
{
  typename Self::Iterator iter = this->Begin();
  typename Self::Iterator end = this->End();

  while ( iter != end )
    {
    iter.SetFrequency(value);
    ++iter;
    }
}

template< class TMeasurement, class TFrequencyContainer >
inline bool
Histogram< TMeasurement, TFrequencyContainer >
::SetFrequencyOfIndex(const IndexType & index, const AbsoluteFrequencyType value)
{
  return this->SetFrequency(this->GetInstanceIdentifier(index), value);
}

template< class TMeasurement, class TFrequencyContainer >
inline bool
Histogram< TMeasurement, TFrequencyContainer >
::SetFrequencyOfMeasurement(const MeasurementVectorType & measurement, const AbsoluteFrequencyType value)
{
  return this->SetFrequency(this->GetInstanceIdentifier( GetIndex(measurement) ), value);
}

template< class TMeasurement, class TFrequencyContainer >
inline bool
Histogram< TMeasurement, TFrequencyContainer >
::IncreaseFrequencyOfIndex(const IndexType & index, const AbsoluteFrequencyType value)
{
  const bool result =
    this->IncreaseFrequency(this->GetInstanceIdentifier(index), value);

  return result;
}

template< class TMeasurement, class TFrequencyContainer >
inline bool
Histogram< TMeasurement, TFrequencyContainer >
::IncreaseFrequencyOfMeasurement(const MeasurementVectorType & measurement, const AbsoluteFrequencyType value)
{
  IndexType index;

  this->GetIndex(measurement, index);
  return this->IncreaseFrequency(this->GetInstanceIdentifier(index), value);
}

template< class TMeasurement, class TFrequencyContainer >
inline typename Histogram< TMeasurement, TFrequencyContainer >::AbsoluteFrequencyType
Histogram< TMeasurement, TFrequencyContainer >
::GetFrequency(const IndexType & index) const
{
  return ( this->GetFrequency( this->GetInstanceIdentifier(index) ) );
}

template< class TMeasurement, class TFrequencyContainer >
typename
Histogram< TMeasurement, TFrequencyContainer >::MeasurementType
Histogram< TMeasurement, TFrequencyContainer >
::GetMeasurement(InstanceIdentifier n, unsigned int dimension) const
{
  return static_cast< MeasurementType >( ( m_Min[dimension][n]
                                           + m_Max[dimension][n] ) / 2 );
}

template< class TMeasurement, class TFrequencyContainer >
typename
Histogram< TMeasurement, TFrequencyContainer >::AbsoluteFrequencyType
Histogram< TMeasurement, TFrequencyContainer >
::GetFrequency(InstanceIdentifier n, unsigned int dimension) const
{
  InstanceIdentifier nextOffset = this->m_OffsetTable[dimension + 1];
  InstanceIdentifier current = this->m_OffsetTable[dimension] * n;
  InstanceIdentifier includeLength = this->m_OffsetTable[dimension];
  InstanceIdentifier include;
  InstanceIdentifier includeEnd;
  InstanceIdentifier last = this->m_OffsetTable[this->GetMeasurementVectorSize()];

  AbsoluteFrequencyType frequency = 0;

  while ( current < last )
    {
    include = current;
    includeEnd = include + includeLength;
    while ( include < includeEnd )
      {
      frequency += GetFrequency(include);
      include++;
      }
    current += nextOffset;
    }
  return frequency;
}

template< class TMeasurement, class TFrequencyContainer >
inline typename Histogram< TMeasurement, TFrequencyContainer >::TotalAbsoluteFrequencyType
Histogram< TMeasurement, TFrequencyContainer >
::GetTotalFrequency() const
{
  return m_FrequencyContainer->GetTotalFrequency();
}

template< class TMeasurement, class TFrequencyContainer >
double
Histogram< TMeasurement, TFrequencyContainer >
::Quantile(unsigned int dimension, double p) const
{
  InstanceIdentifier n;
  const unsigned int size = this->GetSize(dimension);
  double             p_n_prev;
  double             p_n;
  double             f_n;
  double             cumulated = 0;
  double             totalFrequency = double( this->GetTotalFrequency() );
  double             binProportion;
  double             min, max, interval;

  if ( p < 0.5 )
    {
    n = 0;
    p_n = NumericTraits< double >::Zero;
    do
      {
      f_n = this->GetFrequency(n, dimension);
      cumulated += f_n;
      p_n_prev = p_n;
      p_n = cumulated / totalFrequency;
      n++;
      }
    while ( n < size && p_n < p );

    binProportion = f_n / totalFrequency;

    min = double( this->GetBinMin(dimension, n - 1) );
    max = double( this->GetBinMax(dimension, n - 1) );
    interval = max - min;
    return min + ( ( p - p_n_prev ) / binProportion ) * interval;
    }
  else
    {
    n = size - 1;
    InstanceIdentifier m = NumericTraits< InstanceIdentifier >::Zero;
    p_n      = NumericTraits< double >::One;
    do
      {
      f_n = this->GetFrequency(n, dimension);
      cumulated += f_n;
      p_n_prev = p_n;
      p_n = NumericTraits< double >::One - cumulated / totalFrequency;
      n--;
      m++;
      }
    while ( m< size && p_n > p );

    binProportion = f_n / totalFrequency;
    min = double( this->GetBinMin(dimension, n + 1) );
    max = double( this->GetBinMax(dimension, n + 1) );
    interval = max - min;
    return max - ( ( p_n_prev - p ) / binProportion ) * interval;
    }
}

template< class TMeasurement, class TFrequencyContainer >
void
Histogram< TMeasurement, TFrequencyContainer >
::PrintSelf(std::ostream & os, Indent indent) const
{
  Superclass::PrintSelf(os, indent);

  // os << indent << "MeasurementVectorSize: " << this->GetMeasurementVectorSize() << std::endl;
  os << indent << "TotalFrequency: " << this->GetTotalFrequency() << std::endl;
  os << indent << "Size: ";
  for ( unsigned int i = 0; i < m_Size.Size(); i++ )
    {
    os << m_Size[i] << "  ";
    }
  os << std::endl;
  os << indent << "Bin Minima: ";
  for ( unsigned int i = 0; i < m_Min.size(); i++ )
    {
    os << m_Min[i][0] << "  ";
    }
  os << std::endl;
  os << indent << "Bin Maxima: ";
  for ( unsigned int i = 0; i < m_Max.size(); i++ )
    {
    os <<  m_Max[i][m_Max[i].size()-1] << "  ";
    }
  os << std::endl;
  os << indent << "ClipBinsAtEnds: "
     << itk::NumericTraits< bool >::PrintType( this->GetClipBinsAtEnds() ) << std::endl;
  os << indent << "OffsetTable: ";
  for ( unsigned int i = 0; i < this->m_OffsetTable.size(); i++ )
    {
    os << this->m_OffsetTable[i] << "  ";
    }
  os << std::endl;
  os << indent << "FrequencyContainerPointer: " << std::endl;
  m_FrequencyContainer->Print( os,  indent.GetNextIndent() );
}

template< class TMeasurement, class TFrequencyContainer >
void
Histogram< TMeasurement, TFrequencyContainer >
::Graft(const DataObject *thatObject)
{
  this->Superclass::Graft(thatObject);

  const Self *thatConst = dynamic_cast< const Self * >( thatObject );
  if ( thatConst )
    {
    Self *that = const_cast< Self * >( thatConst );
    this->m_Size                  = that->m_Size;
    this->m_OffsetTable           = that->m_OffsetTable;
    this->m_FrequencyContainer    = that->m_FrequencyContainer;
    this->m_NumberOfInstances     = that->m_NumberOfInstances;
    this->m_Min                   = that->m_Min;
    this->m_Max                   = that->m_Max;
    this->m_TempMeasurementVector = that->m_TempMeasurementVector;
    this->m_TempIndex             = that->m_TempIndex;
    this->m_ClipBinsAtEnds        = that->m_ClipBinsAtEnds;
    }
}
} // end of namespace Statistics
} // end of namespace itk

#endif
